DNA helicase is the enzyme that aids DNA in unzipping during transcription.
RNA polymerase
Polymerase
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To 'unwind' the double helix for protein synthesis, enzymes called DNA Helicases cause the two parent DNA strands to unwind and separate from one another in both directions. And im only 15
DNA Polymerase is the enzyme that seperates the two strands so that messenger RNA can read the genetic information of the DNA. The mRNA then moves two tranfer RNA so that Protien synthesis may occur.
DNA Helicase. - an enzyme, is responsible for unwinding and unzipping the double helix.
Helicase is what will "unzip" the DNA.
There are several enzymes that 'unzip' DNA. These enzymes are collectively known as DNA helicases. DNA helicases are helix-destabilizing enzymes that bind to DNA at the origin of replication and break hydrogen bonds, thereby separating the two strands. This allows RNA polymerase to begin transcription (copying) of the DNA sequence.
polymerase
single-strand binding proteins
Assuming this is regarding DNA replication or transcription, the enzyme helicase separates the two strands.
DNA Helicase. - an enzyme, is responsible for unwinding and unzipping the double helix.
RNA polymerase is the enzyme that adds and links complementary RNA nucleotides during transcription
To 'unwind' the double helix for protein synthesis, enzymes called DNA Helicases cause the two parent DNA strands to unwind and separate from one another in both directions. And im only 15
DNA polymerase is the enzyme that "unzips" the complementary DNA strands allowing mRNA to transcribe, or copy, a section of DNA.
DNA Polymerase is the enzyme that seperates the two strands so that messenger RNA can read the genetic information of the DNA. The mRNA then moves two tranfer RNA so that Protien synthesis may occur.
The enzyme RNA polymerase transcribes DNA. This enzyme initiates transcription, joins the RNA nucleotides together, and terminates.
DNA Helicase. - an enzyme, is responsible for unwinding and unzipping the double helix.
Helicase is what will "unzip" the DNA.
There are several enzymes that 'unzip' DNA. These enzymes are collectively known as DNA helicases. DNA helicases are helix-destabilizing enzymes that bind to DNA at the origin of replication and break hydrogen bonds, thereby separating the two strands. This allows RNA polymerase to begin transcription (copying) of the DNA sequence.